/* * QEMU Block driver for Archipelago * * Copyright (C) 2014 Chrysostomos Nanakos * * This work is licensed under the terms of the GNU GPL, version 2 or later. * See the COPYING file in the top-level directory. * */ /* * VM Image on Archipelago volume is specified like this: * * file.driver=archipelago,file.volume= * [,file.mport=[,file.vport=] * [,file.segment=]] * * or * * file=archipelago:[/mport=[:vport=][: * segment=]] * * 'archipelago' is the protocol. * * 'mport' is the port number on which mapperd is listening. This is optional * and if not specified, QEMU will make Archipelago to use the default port. * * 'vport' is the port number on which vlmcd is listening. This is optional * and if not specified, QEMU will make Archipelago to use the default port. * * 'segment' is the name of the shared memory segment Archipelago stack * is using. This is optional and if not specified, QEMU will make Archipelago * to use the default value, 'archipelago'. * * Examples: * * file.driver=archipelago,file.volume=my_vm_volume * file.driver=archipelago,file.volume=my_vm_volume,file.mport=123 * file.driver=archipelago,file.volume=my_vm_volume,file.mport=123, * file.vport=1234 * file.driver=archipelago,file.volume=my_vm_volume,file.mport=123, * file.vport=1234,file.segment=my_segment * * or * * file=archipelago:my_vm_volume * file=archipelago:my_vm_volume/mport=123 * file=archipelago:my_vm_volume/mport=123:vport=1234 * file=archipelago:my_vm_volume/mport=123:vport=1234:segment=my_segment * */ #include "qemu-common.h" #include "block/block_int.h" #include "qemu/error-report.h" #include "qemu/thread.h" #include "qapi/qmp/qint.h" #include "qapi/qmp/qstring.h" #include "qapi/qmp/qjson.h" #include "qemu/atomic.h" #include #include #include #define MAX_REQUEST_SIZE 524288 #define ARCHIPELAGO_OPT_VOLUME "volume" #define ARCHIPELAGO_OPT_SEGMENT "segment" #define ARCHIPELAGO_OPT_MPORT "mport" #define ARCHIPELAGO_OPT_VPORT "vport" #define ARCHIPELAGO_DFL_MPORT 1001 #define ARCHIPELAGO_DFL_VPORT 501 #define archipelagolog(fmt, ...) \ do { \ fprintf(stderr, "archipelago\t%-24s: " fmt, __func__, ##__VA_ARGS__); \ } while (0) typedef enum { ARCHIP_OP_READ, ARCHIP_OP_WRITE, ARCHIP_OP_FLUSH, ARCHIP_OP_VOLINFO, ARCHIP_OP_TRUNCATE, } ARCHIPCmd; typedef struct ArchipelagoAIOCB { BlockAIOCB common; QEMUBH *bh; struct BDRVArchipelagoState *s; QEMUIOVector *qiov; ARCHIPCmd cmd; int status; int64_t size; int64_t ret; } ArchipelagoAIOCB; typedef struct BDRVArchipelagoState { ArchipelagoAIOCB *event_acb; char *volname; char *segment_name; uint64_t size; /* Archipelago specific */ struct xseg *xseg; struct xseg_port *port; xport srcport; xport sport; xport mportno; xport vportno; QemuMutex archip_mutex; QemuCond archip_cond; bool is_signaled; /* Request handler specific */ QemuThread request_th; QemuCond request_cond; QemuMutex request_mutex; bool th_is_signaled; bool stopping; } BDRVArchipelagoState; typedef struct ArchipelagoSegmentedRequest { size_t count; size_t total; int ref; int failed; } ArchipelagoSegmentedRequest; typedef struct AIORequestData { const char *volname; off_t offset; size_t size; uint64_t bufidx; int ret; int op; ArchipelagoAIOCB *aio_cb; ArchipelagoSegmentedRequest *segreq; } AIORequestData; static void qemu_archipelago_complete_aio(void *opaque); static void init_local_signal(struct xseg *xseg, xport sport, xport srcport) { if (xseg && (sport != srcport)) { xseg_init_local_signal(xseg, srcport); sport = srcport; } } static void archipelago_finish_aiocb(AIORequestData *reqdata) { if (reqdata->aio_cb->ret != reqdata->segreq->total) { reqdata->aio_cb->ret = -EIO; } else if (reqdata->aio_cb->ret == reqdata->segreq->total) { reqdata->aio_cb->ret = 0; } reqdata->aio_cb->bh = aio_bh_new( bdrv_get_aio_context(reqdata->aio_cb->common.bs), qemu_archipelago_complete_aio, reqdata ); qemu_bh_schedule(reqdata->aio_cb->bh); } static int wait_reply(struct xseg *xseg, xport srcport, struct xseg_port *port, struct xseg_request *expected_req) { struct xseg_request *req; xseg_prepare_wait(xseg, srcport); void *psd = xseg_get_signal_desc(xseg, port); while (1) { req = xseg_receive(xseg, srcport, X_NONBLOCK); if (req) { if (req != expected_req) { archipelagolog("Unknown received request\n"); xseg_put_request(xseg, req, srcport); } else if (!(req->state & XS_SERVED)) { return -1; } else { break; } } xseg_wait_signal(xseg, psd, 100000UL); } xseg_cancel_wait(xseg, srcport); return 0; } static void xseg_request_handler(void *state) { BDRVArchipelagoState *s = (BDRVArchipelagoState *) state; void *psd = xseg_get_signal_desc(s->xseg, s->port); qemu_mutex_lock(&s->request_mutex); while (!s->stopping) { struct xseg_request *req; void *data; xseg_prepare_wait(s->xseg, s->srcport); req = xseg_receive(s->xseg, s->srcport, X_NONBLOCK); if (req) { AIORequestData *reqdata; ArchipelagoSegmentedRequest *segreq; xseg_get_req_data(s->xseg, req, (void **)&reqdata); switch (reqdata->op) { case ARCHIP_OP_READ: data = xseg_get_data(s->xseg, req); segreq = reqdata->segreq; segreq->count += req->serviced; qemu_iovec_from_buf(reqdata->aio_cb->qiov, reqdata->bufidx, data, req->serviced); xseg_put_request(s->xseg, req, s->srcport); if (atomic_fetch_dec(&segreq->ref) == 1) { if (!segreq->failed) { reqdata->aio_cb->ret = segreq->count; archipelago_finish_aiocb(reqdata); g_free(segreq); } else { g_free(segreq); g_free(reqdata); } } else { g_free(reqdata); } break; case ARCHIP_OP_WRITE: case ARCHIP_OP_FLUSH: segreq = reqdata->segreq; segreq->count += req->serviced; xseg_put_request(s->xseg, req, s->srcport); if (atomic_fetch_dec(&segreq->ref) == 1) { if (!segreq->failed) { reqdata->aio_cb->ret = segreq->count; archipelago_finish_aiocb(reqdata); g_free(segreq); } else { g_free(segreq); g_free(reqdata); } } else { g_free(reqdata); } break; case ARCHIP_OP_VOLINFO: case ARCHIP_OP_TRUNCATE: s->is_signaled = true; qemu_cond_signal(&s->archip_cond); break; } } else { xseg_wait_signal(s->xseg, psd, 100000UL); } xseg_cancel_wait(s->xseg, s->srcport); } s->th_is_signaled = true; qemu_cond_signal(&s->request_cond); qemu_mutex_unlock(&s->request_mutex); qemu_thread_exit(NULL); } static int qemu_archipelago_xseg_init(BDRVArchipelagoState *s) { if (xseg_initialize()) { archipelagolog("Cannot initialize XSEG\n"); goto err_exit; } s->xseg = xseg_join("posix", s->segment_name, "posixfd", NULL); if (!s->xseg) { archipelagolog("Cannot join XSEG shared memory segment\n"); goto err_exit; } s->port = xseg_bind_dynport(s->xseg); s->srcport = s->port->portno; init_local_signal(s->xseg, s->sport, s->srcport); return 0; err_exit: return -1; } static int qemu_archipelago_init(BDRVArchipelagoState *s) { int ret; ret = qemu_archipelago_xseg_init(s); if (ret < 0) { error_report("Cannot initialize XSEG. Aborting...\n"); goto err_exit; } qemu_cond_init(&s->archip_cond); qemu_mutex_init(&s->archip_mutex); qemu_cond_init(&s->request_cond); qemu_mutex_init(&s->request_mutex); s->th_is_signaled = false; qemu_thread_create(&s->request_th, "xseg_io_th", (void *) xseg_request_handler, (void *) s, QEMU_THREAD_JOINABLE); err_exit: return ret; } static void qemu_archipelago_complete_aio(void *opaque) { AIORequestData *reqdata = (AIORequestData *) opaque; ArchipelagoAIOCB *aio_cb = (ArchipelagoAIOCB *) reqdata->aio_cb; qemu_bh_delete(aio_cb->bh); aio_cb->common.cb(aio_cb->common.opaque, aio_cb->ret); aio_cb->status = 0; qemu_aio_unref(aio_cb); g_free(reqdata); } static void xseg_find_port(char *pstr, const char *needle, xport *aport) { const char *a; char *endptr = NULL; unsigned long port; if (strstart(pstr, needle, &a)) { if (strlen(a) > 0) { port = strtoul(a, &endptr, 10); if (strlen(endptr)) { *aport = -2; return; } *aport = (xport) port; } } } static void xseg_find_segment(char *pstr, const char *needle, char **segment_name) { const char *a; if (strstart(pstr, needle, &a)) { if (strlen(a) > 0) { *segment_name = g_strdup(a); } } } static void parse_filename_opts(const char *filename, Error **errp, char **volume, char **segment_name, xport *mport, xport *vport) { const char *start; char *tokens[4], *ds; int idx; xport lmport = NoPort, lvport = NoPort; strstart(filename, "archipelago:", &start); ds = g_strdup(start); tokens[0] = strtok(ds, "/"); tokens[1] = strtok(NULL, ":"); tokens[2] = strtok(NULL, ":"); tokens[3] = strtok(NULL, "\0"); if (!strlen(tokens[0])) { error_setg(errp, "volume name must be specified first"); g_free(ds); return; } for (idx = 1; idx < 4; idx++) { if (tokens[idx] != NULL) { if (strstart(tokens[idx], "mport=", NULL)) { xseg_find_port(tokens[idx], "mport=", &lmport); } if (strstart(tokens[idx], "vport=", NULL)) { xseg_find_port(tokens[idx], "vport=", &lvport); } if (strstart(tokens[idx], "segment=", NULL)) { xseg_find_segment(tokens[idx], "segment=", segment_name); } } } if ((lmport == -2) || (lvport == -2)) { error_setg(errp, "mport and/or vport must be set"); g_free(ds); return; } *volume = g_strdup(tokens[0]); *mport = lmport; *vport = lvport; g_free(ds); } static void archipelago_parse_filename(const char *filename, QDict *options, Error **errp) { const char *start; char *volume = NULL, *segment_name = NULL; xport mport = NoPort, vport = NoPort; if (qdict_haskey(options, ARCHIPELAGO_OPT_VOLUME) || qdict_haskey(options, ARCHIPELAGO_OPT_SEGMENT) || qdict_haskey(options, ARCHIPELAGO_OPT_MPORT) || qdict_haskey(options, ARCHIPELAGO_OPT_VPORT)) { error_setg(errp, "volume/mport/vport/segment and a file name may not" " be specified at the same time"); return; } if (!strstart(filename, "archipelago:", &start)) { error_setg(errp, "File name must start with 'archipelago:'"); return; } if (!strlen(start) || strstart(start, "/", NULL)) { error_setg(errp, "volume name must be specified"); return; } parse_filename_opts(filename, errp, &volume, &segment_name, &mport, &vport); if (volume) { qdict_put(options, ARCHIPELAGO_OPT_VOLUME, qstring_from_str(volume)); g_free(volume); } if (segment_name) { qdict_put(options, ARCHIPELAGO_OPT_SEGMENT, qstring_from_str(segment_name)); g_free(segment_name); } if (mport != NoPort) { qdict_put(options, ARCHIPELAGO_OPT_MPORT, qint_from_int(mport)); } if (vport != NoPort) { qdict_put(options, ARCHIPELAGO_OPT_VPORT, qint_from_int(vport)); } } static QemuOptsList archipelago_runtime_opts = { .name = "archipelago", .head = QTAILQ_HEAD_INITIALIZER(archipelago_runtime_opts.head), .desc = { { .name = ARCHIPELAGO_OPT_VOLUME, .type = QEMU_OPT_STRING, .help = "Name of the volume image", }, { .name = ARCHIPELAGO_OPT_SEGMENT, .type = QEMU_OPT_STRING, .help = "Name of the Archipelago shared memory segment", }, { .name = ARCHIPELAGO_OPT_MPORT, .type = QEMU_OPT_NUMBER, .help = "Archipelago mapperd port number" }, { .name = ARCHIPELAGO_OPT_VPORT, .type = QEMU_OPT_NUMBER, .help = "Archipelago vlmcd port number" }, { /* end of list */ } }, }; static int qemu_archipelago_open(BlockDriverState *bs, QDict *options, int bdrv_flags, Error **errp) { int ret = 0; const char *volume, *segment_name; QemuOpts *opts; Error *local_err = NULL; BDRVArchipelagoState *s = bs->opaque; opts = qemu_opts_create(&archipelago_runtime_opts, NULL, 0, &error_abort); qemu_opts_absorb_qdict(opts, options, &local_err); if (local_err) { error_propagate(errp, local_err); ret = -EINVAL; goto err_exit; } s->mportno = qemu_opt_get_number(opts, ARCHIPELAGO_OPT_MPORT, ARCHIPELAGO_DFL_MPORT); s->vportno = qemu_opt_get_number(opts, ARCHIPELAGO_OPT_VPORT, ARCHIPELAGO_DFL_VPORT); segment_name = qemu_opt_get(opts, ARCHIPELAGO_OPT_SEGMENT); if (segment_name == NULL) { s->segment_name = g_strdup("archipelago"); } else { s->segment_name = g_strdup(segment_name); } volume = qemu_opt_get(opts, ARCHIPELAGO_OPT_VOLUME); if (volume == NULL) { error_setg(errp, "archipelago block driver requires the 'volume'" " option"); ret = -EINVAL; goto err_exit; } s->volname = g_strdup(volume); /* Initialize XSEG, join shared memory segment */ ret = qemu_archipelago_init(s); if (ret < 0) { error_setg(errp, "cannot initialize XSEG and join shared " "memory segment"); goto err_exit; } qemu_opts_del(opts); return 0; err_exit: g_free(s->volname); g_free(s->segment_name); qemu_opts_del(opts); return ret; } static void qemu_archipelago_close(BlockDriverState *bs) { int r, targetlen; char *target; struct xseg_request *req; BDRVArchipelagoState *s = bs->opaque; s->stopping = true; qemu_mutex_lock(&s->request_mutex); while (!s->th_is_signaled) { qemu_cond_wait(&s->request_cond, &s->request_mutex); } qemu_mutex_unlock(&s->request_mutex); qemu_thread_join(&s->request_th); qemu_cond_destroy(&s->request_cond); qemu_mutex_destroy(&s->request_mutex); qemu_cond_destroy(&s->archip_cond); qemu_mutex_destroy(&s->archip_mutex); targetlen = strlen(s->volname); req = xseg_get_request(s->xseg, s->srcport, s->vportno, X_ALLOC); if (!req) { archipelagolog("Cannot get XSEG request\n"); goto err_exit; } r = xseg_prep_request(s->xseg, req, targetlen, 0); if (r < 0) { xseg_put_request(s->xseg, req, s->srcport); archipelagolog("Cannot prepare XSEG close request\n"); goto err_exit; } target = xseg_get_target(s->xseg, req); memcpy(target, s->volname, targetlen); req->size = req->datalen; req->offset = 0; req->op = X_CLOSE; xport p = xseg_submit(s->xseg, req, s->srcport, X_ALLOC); if (p == NoPort) { xseg_put_request(s->xseg, req, s->srcport); archipelagolog("Cannot submit XSEG close request\n"); goto err_exit; } xseg_signal(s->xseg, p); wait_reply(s->xseg, s->srcport, s->port, req); xseg_put_request(s->xseg, req, s->srcport); err_exit: g_free(s->volname); g_free(s->segment_name); xseg_quit_local_signal(s->xseg, s->srcport); xseg_leave_dynport(s->xseg, s->port); xseg_leave(s->xseg); } static int qemu_archipelago_create_volume(Error **errp, const char *volname, char *segment_name, uint64_t size, xport mportno, xport vportno) { int ret, targetlen; struct xseg *xseg = NULL; struct xseg_request *req; struct xseg_request_clone *xclone; struct xseg_port *port; xport srcport = NoPort, sport = NoPort; char *target; /* Try default values if none has been set */ if (mportno == (xport) -1) { mportno = ARCHIPELAGO_DFL_MPORT; } if (vportno == (xport) -1) { vportno = ARCHIPELAGO_DFL_VPORT; } if (xseg_initialize()) { error_setg(errp, "Cannot initialize XSEG"); return -1; } xseg = xseg_join("posix", segment_name, "posixfd", NULL); if (!xseg) { error_setg(errp, "Cannot join XSEG shared memory segment"); return -1; } port = xseg_bind_dynport(xseg); srcport = port->portno; init_local_signal(xseg, sport, srcport); req = xseg_get_request(xseg, srcport, mportno, X_ALLOC); if (!req) { error_setg(errp, "Cannot get XSEG request"); return -1; } targetlen = strlen(volname); ret = xseg_prep_request(xseg, req, targetlen, sizeof(struct xseg_request_clone)); if (ret < 0) { error_setg(errp, "Cannot prepare XSEG request"); goto err_exit; } target = xseg_get_target(xseg, req); if (!target) { error_setg(errp, "Cannot get XSEG target.\n"); goto err_exit; } memcpy(target, volname, targetlen); xclone = (struct xseg_request_clone *) xseg_get_data(xseg, req); memset(xclone->target, 0 , XSEG_MAX_TARGETLEN); xclone->targetlen = 0; xclone->size = size; req->offset = 0; req->size = req->datalen; req->op = X_CLONE; xport p = xseg_submit(xseg, req, srcport, X_ALLOC); if (p == NoPort) { error_setg(errp, "Could not submit XSEG request"); goto err_exit; } xseg_signal(xseg, p); ret = wait_reply(xseg, srcport, port, req); if (ret < 0) { error_setg(errp, "wait_reply() error."); } xseg_put_request(xseg, req, srcport); xseg_quit_local_signal(xseg, srcport); xseg_leave_dynport(xseg, port); xseg_leave(xseg); return ret; err_exit: xseg_put_request(xseg, req, srcport); xseg_quit_local_signal(xseg, srcport); xseg_leave_dynport(xseg, port); xseg_leave(xseg); return -1; } static int qemu_archipelago_create(const char *filename, QemuOpts *options, Error **errp) { int ret = 0; uint64_t total_size = 0; char *volname = NULL, *segment_name = NULL; const char *start; xport mport = NoPort, vport = NoPort; if (!strstart(filename, "archipelago:", &start)) { error_setg(errp, "File name must start with 'archipelago:'"); return -1; } if (!strlen(start) || strstart(start, "/", NULL)) { error_setg(errp, "volume name must be specified"); return -1; } parse_filename_opts(filename, errp, &volname, &segment_name, &mport, &vport); total_size = ROUND_UP(qemu_opt_get_size_del(options, BLOCK_OPT_SIZE, 0), BDRV_SECTOR_SIZE); if (segment_name == NULL) { segment_name = g_strdup("archipelago"); } /* Create an Archipelago volume */ ret = qemu_archipelago_create_volume(errp, volname, segment_name, total_size, mport, vport); g_free(volname); g_free(segment_name); return ret; } static const AIOCBInfo archipelago_aiocb_info = { .aiocb_size = sizeof(ArchipelagoAIOCB), }; static int archipelago_submit_request(BDRVArchipelagoState *s, uint64_t bufidx, size_t count, off_t offset, ArchipelagoAIOCB *aio_cb, ArchipelagoSegmentedRequest *segreq, int op) { int ret, targetlen; char *target; void *data = NULL; struct xseg_request *req; AIORequestData *reqdata = g_new(AIORequestData, 1); targetlen = strlen(s->volname); req = xseg_get_request(s->xseg, s->srcport, s->vportno, X_ALLOC); if (!req) { archipelagolog("Cannot get XSEG request\n"); goto err_exit2; } ret = xseg_prep_request(s->xseg, req, targetlen, count); if (ret < 0) { archipelagolog("Cannot prepare XSEG request\n"); goto err_exit; } target = xseg_get_target(s->xseg, req); if (!target) { archipelagolog("Cannot get XSEG target\n"); goto err_exit; } memcpy(target, s->volname, targetlen); req->size = count; req->offset = offset; switch (op) { case ARCHIP_OP_READ: req->op = X_READ; break; case ARCHIP_OP_WRITE: req->op = X_WRITE; break; case ARCHIP_OP_FLUSH: req->op = X_FLUSH; break; } reqdata->volname = s->volname; reqdata->offset = offset; reqdata->size = count; reqdata->bufidx = bufidx; reqdata->aio_cb = aio_cb; reqdata->segreq = segreq; reqdata->op = op; xseg_set_req_data(s->xseg, req, reqdata); if (op == ARCHIP_OP_WRITE) { data = xseg_get_data(s->xseg, req); if (!data) { archipelagolog("Cannot get XSEG data\n"); goto err_exit; } qemu_iovec_to_buf(aio_cb->qiov, bufidx, data, count); } xport p = xseg_submit(s->xseg, req, s->srcport, X_ALLOC); if (p == NoPort) { archipelagolog("Could not submit XSEG request\n"); goto err_exit; } xseg_signal(s->xseg, p); return 0; err_exit: g_free(reqdata); xseg_put_request(s->xseg, req, s->srcport); return -EIO; err_exit2: g_free(reqdata); return -EIO; } static int archipelago_aio_segmented_rw(BDRVArchipelagoState *s, size_t count, off_t offset, ArchipelagoAIOCB *aio_cb, int op) { int ret, segments_nr; size_t pos = 0; ArchipelagoSegmentedRequest *segreq; segreq = g_new0(ArchipelagoSegmentedRequest, 1); if (op == ARCHIP_OP_FLUSH) { segments_nr = 1; } else { segments_nr = (int)(count / MAX_REQUEST_SIZE) + \ ((count % MAX_REQUEST_SIZE) ? 1 : 0); } segreq->total = count; atomic_mb_set(&segreq->ref, segments_nr); while (segments_nr > 1) { ret = archipelago_submit_request(s, pos, MAX_REQUEST_SIZE, offset + pos, aio_cb, segreq, op); if (ret < 0) { goto err_exit; } count -= MAX_REQUEST_SIZE; pos += MAX_REQUEST_SIZE; segments_nr--; } ret = archipelago_submit_request(s, pos, count, offset + pos, aio_cb, segreq, op); if (ret < 0) { goto err_exit; } return 0; err_exit: segreq->failed = 1; if (atomic_fetch_sub(&segreq->ref, segments_nr) == segments_nr) { g_free(segreq); } return ret; } static BlockAIOCB *qemu_archipelago_aio_rw(BlockDriverState *bs, int64_t sector_num, QEMUIOVector *qiov, int nb_sectors, BlockDriverCompletionFunc *cb, void *opaque, int op) { ArchipelagoAIOCB *aio_cb; BDRVArchipelagoState *s = bs->opaque; int64_t size, off; int ret; aio_cb = qemu_aio_get(&archipelago_aiocb_info, bs, cb, opaque); aio_cb->cmd = op; aio_cb->qiov = qiov; aio_cb->ret = 0; aio_cb->s = s; aio_cb->status = -EINPROGRESS; off = sector_num * BDRV_SECTOR_SIZE; size = nb_sectors * BDRV_SECTOR_SIZE; aio_cb->size = size; ret = archipelago_aio_segmented_rw(s, size, off, aio_cb, op); if (ret < 0) { goto err_exit; } return &aio_cb->common; err_exit: error_report("qemu_archipelago_aio_rw(): I/O Error\n"); qemu_aio_unref(aio_cb); return NULL; } static BlockAIOCB *qemu_archipelago_aio_readv(BlockDriverState *bs, int64_t sector_num, QEMUIOVector *qiov, int nb_sectors, BlockDriverCompletionFunc *cb, void *opaque) { return qemu_archipelago_aio_rw(bs, sector_num, qiov, nb_sectors, cb, opaque, ARCHIP_OP_READ); } static BlockAIOCB *qemu_archipelago_aio_writev(BlockDriverState *bs, int64_t sector_num, QEMUIOVector *qiov, int nb_sectors, BlockDriverCompletionFunc *cb, void *opaque) { return qemu_archipelago_aio_rw(bs, sector_num, qiov, nb_sectors, cb, opaque, ARCHIP_OP_WRITE); } static int64_t archipelago_volume_info(BDRVArchipelagoState *s) { uint64_t size; int ret, targetlen; struct xseg_request *req; struct xseg_reply_info *xinfo; AIORequestData *reqdata = g_new(AIORequestData, 1); const char *volname = s->volname; targetlen = strlen(volname); req = xseg_get_request(s->xseg, s->srcport, s->mportno, X_ALLOC); if (!req) { archipelagolog("Cannot get XSEG request\n"); goto err_exit2; } ret = xseg_prep_request(s->xseg, req, targetlen, sizeof(struct xseg_reply_info)); if (ret < 0) { archipelagolog("Cannot prepare XSEG request\n"); goto err_exit; } char *target = xseg_get_target(s->xseg, req); if (!target) { archipelagolog("Cannot get XSEG target\n"); goto err_exit; } memcpy(target, volname, targetlen); req->size = req->datalen; req->offset = 0; req->op = X_INFO; reqdata->op = ARCHIP_OP_VOLINFO; reqdata->volname = volname; xseg_set_req_data(s->xseg, req, reqdata); xport p = xseg_submit(s->xseg, req, s->srcport, X_ALLOC); if (p == NoPort) { archipelagolog("Cannot submit XSEG request\n"); goto err_exit; } xseg_signal(s->xseg, p); qemu_mutex_lock(&s->archip_mutex); while (!s->is_signaled) { qemu_cond_wait(&s->archip_cond, &s->archip_mutex); } s->is_signaled = false; qemu_mutex_unlock(&s->archip_mutex); xinfo = (struct xseg_reply_info *) xseg_get_data(s->xseg, req); size = xinfo->size; xseg_put_request(s->xseg, req, s->srcport); g_free(reqdata); s->size = size; return size; err_exit: xseg_put_request(s->xseg, req, s->srcport); err_exit2: g_free(reqdata); return -EIO; } static int64_t qemu_archipelago_getlength(BlockDriverState *bs) { int64_t ret; BDRVArchipelagoState *s = bs->opaque; ret = archipelago_volume_info(s); return ret; } static int qemu_archipelago_truncate(BlockDriverState *bs, int64_t offset) { int ret, targetlen; struct xseg_request *req; BDRVArchipelagoState *s = bs->opaque; AIORequestData *reqdata = g_new(AIORequestData, 1); const char *volname = s->volname; targetlen = strlen(volname); req = xseg_get_request(s->xseg, s->srcport, s->mportno, X_ALLOC); if (!req) { archipelagolog("Cannot get XSEG request\n"); goto err_exit2; } ret = xseg_prep_request(s->xseg, req, targetlen, 0); if (ret < 0) { archipelagolog("Cannot prepare XSEG request\n"); goto err_exit; } char *target = xseg_get_target(s->xseg, req); if (!target) { archipelagolog("Cannot get XSEG target\n"); goto err_exit; } memcpy(target, volname, targetlen); req->offset = offset; req->op = X_TRUNCATE; reqdata->op = ARCHIP_OP_TRUNCATE; reqdata->volname = volname; xseg_set_req_data(s->xseg, req, reqdata); xport p = xseg_submit(s->xseg, req, s->srcport, X_ALLOC); if (p == NoPort) { archipelagolog("Cannot submit XSEG request\n"); goto err_exit; } xseg_signal(s->xseg, p); qemu_mutex_lock(&s->archip_mutex); while (!s->is_signaled) { qemu_cond_wait(&s->archip_cond, &s->archip_mutex); } s->is_signaled = false; qemu_mutex_unlock(&s->archip_mutex); xseg_put_request(s->xseg, req, s->srcport); g_free(reqdata); return 0; err_exit: xseg_put_request(s->xseg, req, s->srcport); err_exit2: g_free(reqdata); return -EIO; } static QemuOptsList qemu_archipelago_create_opts = { .name = "archipelago-create-opts", .head = QTAILQ_HEAD_INITIALIZER(qemu_archipelago_create_opts.head), .desc = { { .name = BLOCK_OPT_SIZE, .type = QEMU_OPT_SIZE, .help = "Virtual disk size" }, { /* end of list */ } } }; static BlockAIOCB *qemu_archipelago_aio_flush(BlockDriverState *bs, BlockDriverCompletionFunc *cb, void *opaque) { return qemu_archipelago_aio_rw(bs, 0, NULL, 0, cb, opaque, ARCHIP_OP_FLUSH); } static BlockDriver bdrv_archipelago = { .format_name = "archipelago", .protocol_name = "archipelago", .instance_size = sizeof(BDRVArchipelagoState), .bdrv_parse_filename = archipelago_parse_filename, .bdrv_file_open = qemu_archipelago_open, .bdrv_close = qemu_archipelago_close, .bdrv_create = qemu_archipelago_create, .bdrv_getlength = qemu_archipelago_getlength, .bdrv_truncate = qemu_archipelago_truncate, .bdrv_aio_readv = qemu_archipelago_aio_readv, .bdrv_aio_writev = qemu_archipelago_aio_writev, .bdrv_aio_flush = qemu_archipelago_aio_flush, .bdrv_has_zero_init = bdrv_has_zero_init_1, .create_opts = &qemu_archipelago_create_opts, }; static void bdrv_archipelago_init(void) { bdrv_register(&bdrv_archipelago); } block_init(bdrv_archipelago_init);